RU2062763C1 - Raw mixture for building article making, mainly xylolith blocks, and a method of their making - Google Patents

Abstract

FIELD: building industry. SUBSTANCE: raw mixture has, mas. p.: caustic magnesite 1-1.5; wood saw-dust 2.8-3.3; magnesium chloride mother liquid of carnallite production at density 1.2-1.25 g/cm³ 1.4-1.9; kaolin 0.04-0.08; polyorganosiloxane 0.01-0.03; blue ultramarine 0.03-0.07. Method of xylolith block making involves preliminary mixing kaolin with wood saw-dust, treatment with polyorganosiloxane, caustic magnesite addition followed by mixing with magnesium chloride solution and addition of blue ultramarine to it. Then blocks were formed, dried their and by alternating and soaking processes block weight is decreased by 22-23% of initial weight and salt content - up to 72-75% of their initial level. Obtained blocks exhibit limit strength at removing 38-45 MPa, compression strength after 48 hr cold exposition - 49.4-67.5 MPa, water resistance coefficient - 1.3-1.5. EFFECT: enhanced quality and properties of mixture. 3 cl

Description

 The invention relates to building materials and can be used for the manufacture of building timber, dry and dense insulation boards, the construction of mills and ceilings in rooms with a humid aggressive atmosphere.

 Known ceramic mass for the manufacture of wall panels, including loam, sawdust, ash and slurry mixture.

 However, products from these mixtures have low strength, high hygroscopicity.

 A known method of manufacturing building boards, comprising mixing a pre-dried fiber with an aqueous solution of magnesium chloride, the simultaneous addition of magnesium oxide and the subsequent formation and pressing of the plate.

 The disadvantage of this method is the instability of physical and mechanical properties.

 Closest to the invention is a method of manufacturing building boards, comprising preparing a mixture of magnesian binder, wood filler and an aqueous solution of magnesium chloride, pressing the mixture.

 The disadvantages of this method are the instability of the physico-mechanical properties of building boards and high temperature conditions in their manufacture.

 Closest to the proposed building material is a raw material mixture for the manufacture of building products, including caustic magnesite, potassium chloride-magnesium brine, a water-alcohol solution of sodium alkylsiliconate, GKZh-10 or GKZh-11, formate-alcohol waste of pentaerythritol production, and mineral aggregate.

 However, this mixture does not eliminate the hygroscopicity of xylene, it can only be used inside dry buildings. In addition, an expensive formate-alcohol pentaerythritol waste is used to prepare such a mixture.

 The purpose of this invention is to increase the water resistance and strength of the material by eliminating hygroscopicity and efflorescence.

The goal is achieved in that the raw material mixture for the manufacture of building products, mainly xylolithic blocks, including caustic magnesite, chloromagnesium brine, organopolysiloxane and aggregate, contains carnallite brine with a density of 1.2 1.25 g / cm ³ as a filler, as a filler wood sawdust and optionally koalin and ultramarine blue with the following content of components, wt. h:
Caustic Magnesite 1.0 1.5
Chlormagnesium brine of carnallite production 1.4 1.9
Polyorganosiloxane 0.01 0.03
Wood sawdust 2.8 3.2
Kaolin 0.04 0.08
Ultramarine Blue 0.03 0.07
The goal is also achieved by the fact that the method of manufacturing xylolithic blocks, including the preparation of the raw mix by mixing caustic magnesite, an aqueous solution of magnesium chloride and ground wood aggregate, when preparing the raw mix, the ground wood aggregate is pre-mixed with kaolin, followed by the introduction of polyorganosiloxane, caustic magnesia, chlorine with stirring brine of carnallite production and ultramarine blue, after which blocks are formed by pressing at room temperature, they are dried and alternating the soaking of the blocks and their drying, the weight of the block is reduced by 22 23 from the initial one and the salts are removed to 72 75 from their initial content.

 The implementation of the invention is as follows.

 First carry out the mixing of the components of the mixture in the following order. Kaolin is pre-mixed with an organic filler, for which, for example, wool or sawdust of preferably softwood having a neutral chemical nature can be used.

 After that, the resulting mixture is treated with polyorganosiloxane, for example, GKZh-94. When it is introduced, finely oriented films with a water-repellent effect are formed on the surface of solid particles of sawdust and kaolin. Adsorbed on them, the organosilicon compound increases the uniformity of the mixture, which leads to the formation of a finely porous structure and hydrophobization of the surface.

 After introducing caustic megnesite and an aqueous solution of magnesium chloride into the mixture, sawdust is mineralized, and with increased humidity, water-soluble salts and sawdust itself actively collect moisture from the air. Due to the entrained air and hydrophobization of the surface of the particles of sawdust and kaolin, gas and water impermeability increase. The particles of kaolin and sawdust formed surrounded by a water-repellent film do not soak under the influence of moisture and do not absorb water vapor from the air.

 The introduction of ultramarine blue, which is sodium aluminosilicate containing sulfur, allows you to create a compacted water-resistant structure, since it is able to interact with unreacted magnesite (MO), the free silicic acid in ultramarine forms a waterproof and durable magnesium silicate.

H ₂ SiO ₃ + MgO ---> MgSiO ₃ + H ₂ O
Then, blocks are formed from the resulting mixture, dried until the binder has set, and then placed in water at room temperature and left for several hours. This procedure is carried out several times. This is due to the fact that kaolin (hydrated aluminum silicate) has a high dispersion and binding ability, which contributes to the formation of colloidal solutions during mixing, i.e., excess moisture in magnesium slurry is bound by kaolin. Thus, kaolin compacts the magnesium hydroxide gel, which, when dried after soaking, is further compacted. When the product is soaked in water, the compacted gel of magnesium hydroxide / Mg (OH) / ₂ does not swell in water. Water-soluble layers of the product (block) exit into the water at the beginning of its hardening, they lose more moisture than internal ones, as a result of which tensile forces arise in them, and when the sample is soaked, kaolin, being resistant to water, can soften and contribute to the removal of water-soluble salts into water, significantly reducing (excluding) internal stresses.

 Soaking the block is carried out until the salts exit to 75 72 from their initial content or until the weight of the product is reduced by 22 23 from the original.

 The amount of kaolin as a sealing additive, taken above, 0.08 h. Leads to strong swelling of clay particles in the solution, which leads to the formation of cracks when the sample dries. At a lower content (less than 0.04 hours), a strong skeleton of the block does not form when it hardens and when it dries after soaking.

 The addition of a water repellent (organosilicon compound) is higher than 0, OZ hours helps to slow down the formation of colloidal solutions of kaolin, slows down the hardening rate.

 In addition, such an amount of water repellent causes an increase in air-entraining effect, which causes increased porosity.

 The introduction of water repellent in a smaller amount (less than 0.01 hours) leads to a decrease in the coefficient of water resistance.

 The introduction of ultramarine blue in an amount greater than 0.07 hours leads to a decrease in strength and water resistance coefficient due to increased exothermic reaction, in which the sulfur contained in ultramarine blue and inert at ordinary temperature is activated and causes a quick setting (hardening) of the mixture, which worsens quality indicators.

 When the content of ultramarine blue in the mixture is less than 0.03 hours, the water resistance coefficient decreases, since the content of waterproof magnesium silicate in the mixture is insignificant.

For experimental verification, 16 compositions were prepared as follows. Softwood sawdust and kaolin (GOST 6138-61) were loaded into the mixer, mixed and GKZh-94 (GOST 10834-64) was added as an organosilicon compound, after which they were mixed for 3–4 min. Then, caustic magnesite (GOST 1216-75) was introduced and the entire mixture was shut with an aqueous solution of magnesium chloride, which is represented by carnalite liquor at t 25 - 30 ^o С, obtained by dissolving carnallite ore (GOST 16109-70) in water at t 70 80 ^o С to saturation of the solution with a density of 1.2 1.25 g / cm ³ . The carnallite liquor of the MgCl ₂ composition was allowed to cool 152.9 g / l; KCl 117.09 g / l; NaCl 27.7 g / l to 25-30 ^o C. Then enter ultramarine blue (GOST 13483-68).

The resulting mixture was rammed into molds. After 2 hours, the sample was taken out of the mold and dried in air for 6-7 hours. Then it was again soaked in water at t 28 30 ^° C for 15-18 hours and again dried for 4-6 hours in air, and then again soaked for 15 hours. After drying for 6 hours, the water resistance of the sample was determined according to GOST 12730.3-78, calculating the softening coefficient (Cr). The material is water resistant if Cr 0.8 and above.

 Using the present invention allows to obtain cheap building material with high performance properties, such as frost and water resistance, etc.

Claims (2)

1. The raw material mixture for the manufacture of building products, mainly xylolithic blocks, including caustic magnesite, chlorine-magnesium brine, aggregate, polyorganosiloxane, characterized in that it contains carnallite brine with a density of 1.2 1.25 g / cm ³ as as a filler, wood sawdust and optionally kaolin and ultramarine blue in the following ratio of components, parts by weight Caustic Magnesite 1.0 1.5
Chlormagnesium brine of carnallite production 1.4 1.9
Polyorganosiloxane 0.01 0.03
Wood sawdust 2.8 3.2
Kaolin 0.04 0.08
Ultramarine Blue 0.03 0.07
2. A method of manufacturing xylolithic blocks, comprising preparing a raw mixture by mixing caustic magnesite, ground wood aggregate and an aqueous solution of magnesium chloride and pressing the resulting raw mixture, characterized in that when preparing the raw mix, the ground wood aggregate is pre-mixed with kaolin, followed by the introduction of polyorganosiloxane with stirring , caustic magnesite, chloromagnesium brine of carnallite production and ultramarine blue, presses of obtained raw material mixture was performed at room temperature, dried formed article before curing binder alternate soaking and drying to reduce the weight of the product on 22-23% of the original salt and the yield to 70-72% of their original content.  3. The method according to claim 2, characterized in that the temperature used when soaking blocks of water 25-30 ° C.